INDUCTANCE PACKAGE Search Results

MS75088

Contextual Info: MS75087, MS75088 Vishay Dale Inductors, Military, MIL-PRF-15305 Qualified, Type LT, Molded, Shielded, Axial Leaded FEATURES INDUCTANCE RANGE AND MILITARY STANDARD INDUCTANCE RANGE FROM TO • Wide inductance range in small package • Flame retardant coating

S-LICC10M1101-C

Abstract: Licc avx 0612 2000 LICC kyocera
Contextual Info: A KYOCERA GROUP COMPANY AVX Low Inductance Capacitors Table of Contents Low Inductance Capacitors Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-3 Low Inductance Chip Capacitors

MICro 5800

Abstract: diode 1n6 diode CODE 51n 36501E 36502A 36521J 8R-2-103
Contextual Info: Low Inductance, High Frequency Chip Inductor Type 3650 Series Type 3650 Series Characteristics - Electrical Type 36501E Series - 0402 Package Inductance Inductance Tolerance Code nH @ 250MHz (%) The 3650 Series is a new concept from Tyco, a range of inductors

Contextual Info: Low Inductance Capacitors 0612/0508/0306 LICC Low Inductance Chip Capacitors GENERAL DESCRIPTION The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip.

LICC

Contextual Info: Low Inductance Capacitors 0612/0508/0306 LICC Low Inductance Chip Capacitors GENERAL DESCRIPTION The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip.

0306 capacitor

Abstract: LICC ZD105 cap 0306 package
Contextual Info: Low Inductance Capacitors 0612/0508/0306 LICC Low Inductance Chip Capacitors GENERAL DESCRIPTION The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip. This

Contextual Info: Low Inductance Capacitors 0612/0508/0306 LICC Low Inductance Chip Capacitors GENERAL DESCRIPTION The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip. This

Licc avx 0612

Contextual Info: Low Inductance Capacitors 0612/0508/0306 LICC Low Inductance Chip Capacitors The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip. This design improvement is the

LICC

Abstract: Licc avx 0612 0306 capacitor
Contextual Info: Low Inductance Capacitors 0612/0508/0306 LICC Low Inductance Chip Capacitors The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip. This design improvement is the

AEP13-3853

Contextual Info: RoHS EP13 Flyback Transformer AEP13-3853 EP13 Package in SMD Operating temperature range: -40ºC to +85ºC Reflow Condition: Maximum reflow temperature is 250ºC/-5ºC time is 20~40 sec. Refer to IPC/JEDECJ-STD-020 standard Inductance Inductance Leakage Inductance

elco capacitor uf

Abstract: chip capacitance AVX MLCC AVX LICC LICC kyocera
Contextual Info: 0612/0508/0306 LICC Low Inductance Chip Capacitors GENERAL DESCRIPTION The total inductance of chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip.

0M0701-N

Abstract: LICC
Contextual Info: 0612/0508/0306 LICC Low Inductance Chip Capacitors GENERAL DESCRIPTION The total inductance of chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip.

LICC

Contextual Info: 0612/0508/0306 LICC Low Inductance Chip Capacitors GENERAL DESCRIPTION The total inductance of chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip.

IDC0508

Abstract: Licc avx 0612 bl 0306
Contextual Info: Low Inductance Chip Capacitors AVX's low inductance are designed for high speed IC packages and hybrid circuits. Their aspect ratio and size have been optimized to reduce inductance from the 2 nH range found in normal chip capacitors to less than 0.5 nH. Their low profile 20 mils is ideal for

PL17-12

Abstract: PL17-17 PL17-01 PL17-10 PL17-14
Contextual Info: POWER INDUCTORS TOROIDAL INDUCTORS SELF-LEADED SMT PL17 SERIES P Vanguard Part No. a r a l l e l S Inductance Inductance Rated DC @ 0 Amps @ Rated DCA Current Resistance uH ±20% uH min. Amps, DC Ω, max. Inductance @ 0 Amps uH, ±20% e r i Inductance @ Rated DCA

Contextual Info: LGA Low Inductance Capacitors 0204/0306/0508/0805 Land Grid Arrays AVX has introduced a revolutionary new capacitor for low inductance applications. Low inductance LGA land grid array capacitors have virtually the equivalent high frequency performance of 8-terminal IDC’s (Inter-Digitated Capacitors) but are built in a simplified 2 terminal package.

ld18

Abstract: A0612
Contextual Info: Low Inductance Capacitors SnPb LICC 0612/0508/0306 X7R & X5R Dielectric The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip. This design improvement is

Licc avx 0612

Contextual Info: Low Inductance Capacitors RoHS LICC 0612/0508/0306 X7R & X5R Dielectric The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip. This design improvement is

PL19-12

Abstract: PL19-04 b414 transistor B414 PL19-05 PL19 PL19-07
Contextual Info: POWER INDUCTORS TOROIDAL INDUCTORS SELF-LEADED SMT PL19 SERIES P Vanguard Part No. a r a l l e l S Inductance Inductance Rated DC @ 0 Amps @ Rated DCA Current Resistance uH ±20% uH min. Amps, DC Ω, max. e r i e s Inductance Inductance Rated DC @ 0 Amps @ Rated DCA Current Resistance

PL18-12

Abstract: pl1806 PL18-13 PL18-17
Contextual Info: POWER INDUCTORS TOROIDAL INDUCTORS SELF-LEADED SMT PL18 SERIES P Vanguard Part No. a r a l l e l S Inductance Inductance Rated DC @ 0 Amps @ Rated DCA Current Resistance uH ±20% uH min. Amps, DC Ω, max. e r i e s Inductance Inductance Rated DC @ 0 Amps @ Rated DCA Current Resistance

PL-1615

Abstract: POWER WITH 34064 PL16-09 PL16-01 23488 PL1607 PL16-11 PL16-06 PL-16
Contextual Info: POWER INDUCTORS TOROIDAL INDUCTORS SELF-LEADED SMT PL16 SERIES P Vanguard Part No. a r a l l e l S Inductance Inductance Rated DC @ 0 Amps @ Rated DCA Current Resistance uH ±20% uH min. Amps, DC Ω, max. e r i e s Inductance Inductance Rated DC @ 0 Amps @ Rated DCA Current Resistance

IEEE802

Abstract: PA163502 13 pin isolation transformer
Contextual Info: PA163502 10BASE-T Transformer module Feature ♦ Designed to meet IEEE802.3 requirement. ♦Low profile SMD package ♦ Isolation Voltage : 2000 Vrms Specifications Parameter Turn Ratio Inductance Interwinding Capacitance Leakage Inductance DCR Voltage Isolation

L0508

Contextual Info: /A Low Inductance Chips Specially Designed MLC Chips for Low Inductance ST A N D A R D 0805 CHIP , 10 nF 0805 C H IP T E S T E D G E R A T E = 200 m A/nS A AVX's low inductance capacitors are designed for high speed 1C packages and hybrid circuits. Their aspect ratio

501-1005

Abstract: 501-1013
Contextual Info: BH Electronics INDUCTORS Toroid Inductors for Switching Power Supplies • Current Range, 1 Amp to 50 Amps • Cost Effective Design • Wide Range of Inductance • Maximum Temperature Rise, 40°C Above Ambient • PC Mount % INITIAL INDUCTANCE TYPICAL INDUCTANCE